ZX00
Magnesium alloys are the lightest structural metals, offering high specific strength, ideal for weight-sensitive applications. Atomization is challenging due to rapid oxidation, but optimized processes can yield highly spherical powders. Using higher-frequency piezoelectric generators stabilizes the process, and advanced coating…
WE43
Magnesium alloys are the lightest structural metals, offering high specific strength, ideal for weight-sensitive applications. Atomization is challenging due to rapid oxidation, but optimized processes can yield highly spherical powders. Using higher-frequency piezoelectric generators stabilizes the process, and advanced coating…
WE54
Magnesium alloys are the lightest structural metals, offering high specific strength, ideal for weight-sensitive applications. Atomization is challenging due to rapid oxidation, but optimized processes can yield highly spherical powders. Using higher-frequency piezoelectric generators stabilizes the process, and advanced coating…
AZ31
Magnesium alloys are the lightest structural metals, offering high specific strength, ideal for weight-sensitive applications. Atomization is challenging due to rapid oxidation, but optimized processes can yield highly spherical powders. Using higher-frequency piezoelectric generators stabilizes the process, and advanced coating…
Certified C-103 (A)
Certified C‑103‑A is a high‑performance niobium alloy with exceptional strength and stability at elevated temperatures and superior cryogenic properties. Ideal for additive manufacturing in aerospace, propulsion and extreme‑environment components.
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Aheadd® CP1
Certified AHEAD‑D CPI is a high‑performance aluminum alloy engineered for additive manufacturing, offering exceptional thermal conductivity and heat management. Ideal for heat exchangers, thermal systems and advanced applications requiring lightweight, efficient thermal performance.
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Magnesium alloys are the lightest structural metals, offering high specific strength, ideal for weight-sensitive applications. Atomization is challenging due to rapid oxidation, but optimized processes can yield highly spherical powders. Using higher-frequency piezoelectric generators stabilizes the process, and advanced coating…
AlSi10Mg
Aluminum is a widely used non-ferrous alloy due to its low density, good strength, and corrosion resistance. Although atomization is challenging, the resulting powder meets most 3D printer requirements, with a sphericity of 0.93 and an average particle size of…
AlMgSc
Aluminum is a widely used non-ferrous alloy due to its low density, good strength, and corrosion resistance. Although atomization is challenging, the resulting powder meets most 3D printer requirements, with a sphericity of 0.93 and an average particle size of…
AlMgCu
Aluminum is a widely used non-ferrous alloy due to its low density, good strength, and corrosion resistance. Although atomization is challenging, the resulting powder meets most 3D printer requirements, with a sphericity of 0.93 and an average particle size of…